KR101174157B1 - System and method for dynamic managing neighbor list in a wireless communication system - Google Patents

Abstract

The present invention relates to neighbor base station information management in a wireless communication system. Accordingly, the terminal manages movement information of the terminal, predicts movement information of the terminal according to movement of the terminal, and stores a neighbor base station list stored in the terminal based on the predicted movement information to manage neighbor base station information. The neighbor base station information for updating is requested to the serving base station, and the neighbor base station list in the terminal is updated based on the neighbor base station information corresponding to the request received from the serving base station.

Neighbor base station list, moving speed, moving direction, terminal, serving base station

Description

SYSTEM AND METHOD FOR DYNAMIC MANAGING NEIGHBOR LIST IN A WIRELESS COMMUNICATION SYSTEM}

1 is a signal flow diagram schematically illustrating message transmission for managing neighbor base station information in a wireless communication system according to an embodiment of the present invention.

2 is a diagram schematically illustrating an information request for managing a neighbor base station list in consideration of a moving position and a direction of a terminal in a wireless communication system according to an embodiment of the present invention.

3 is a flowchart schematically illustrating an operation process of a terminal in a wireless communication system according to an exemplary embodiment of the present invention.

4 is a flowchart schematically showing the operation of a serving base station in a wireless communication system according to an embodiment of the present invention.

The present invention relates to a wireless communication system, and more particularly, to a system and method for dynamically managing neighboring base station information for use in handover in consideration of a moving speed and a moving direction of a terminal in a broadband wireless communication system.

The current communication system is evolving and provides users with various quality services with a transmission rate of about 100 Mbps in connection with the 4th Generation (hereinafter referred to as '4G') communication system. There is active research going on. In particular, broadband wireless access such as a wireless local area network (LAN) system and a wireless urban area network (MAN) system. Research is being actively conducted to support high-speed services in the form of guaranteeing mobility and quality of service (QoS) in a communication system. Examples of such wireless communication systems include a wireless broadband (WiBro) system, an 802.16d system, and an 802.16e system.

One of the biggest features of this evolving wireless communication system is mobility. One way to support the mobility is handover. The handover is performed when a mobile station (MS) moves between service areas of a base station (BS), that is, when it moves out of the cell area of a serving BS that currently provides a service to a terminal. The service is provided by a target BS providing a service in the neighbor cell area. Accordingly, through the handover, the terminal on the network can provide a continuous communication to the user even when the access point of the terminal is changed.

In order to perform such a handover, the terminal manages information of neighboring base stations adjacent to the serving base station as well as the serving base station communicating with the terminal. As such, the terminal manages a neighbor base station list including information of neighbor base stations, and uses the neighbor base station list during handover. The terminal receives a neighbor base station information response message from the serving base station or the like and manages the neighbor base station list in the terminal. In this case, the neighbor base station information response message received by the terminal includes information of neighbor neighbor base stations around the serving base station. That is, the terminal receives the neighbor base station information response message including the static neighboring base station information.

Meanwhile, as described above, the wireless communication system should perform handover according to the movement of the terminal. In this case, when the terminal is moving at a high speed, the terminal may not properly update the neighbor base station list while selecting a base station for handover from the neighbor base station list inside the terminal. In a region where many base stations are concentrated, the neighbor base station list may not be properly updated. In addition, even when the allocation frequency is changed or the channel is changed between the serving base station and the neighbor base stations, it may not be able to properly update the neighbor base station list.

As described above, in the related art, there is a problem in that neighboring base station lists in the terminal are not properly updated when the terminal moves and performs an operation, or when there is a system change.

When performing the handover using the neighbor base station list that is not properly updated as described above, it may take a long time for the terminal to communicate with the target base station to be handed over in synchronization. In addition, such a time delay may cause a drop of a call set between the terminal and the base station. When the drop of the call occurs, normal communication cannot be performed.

Accordingly, an object of the present invention is to propose a system and method for managing neighbor base station information in consideration of movement of a terminal in a wireless communication system.

Another object of the present invention is to propose a system and method for managing neighbor base station information by properly updating a neighbor base station list in a wireless communication system.

It is still another object of the present invention to propose a system and method for managing neighbor base station information to perform normal communication during handover in a wireless communication system.

According to an aspect of the present invention, there is provided a method for managing neighboring base station information in a wireless communication system, the terminal managing movement information of the terminal and predicting movement information of the terminal according to the movement of the terminal; Requesting a serving base station to transmit neighbor base station information to update a neighbor base station list stored in the terminal and managing neighbor base station information based on the predicted movement information; And updating the neighbor base station list based on neighbor base station information received from the serving base station.
The requesting process may include determining a reference base station corresponding to a location to which the terminal moves based on the predicted movement information, and neighboring base stations corresponding to information that the terminal wants to receive based on the reference base station. Setting a predetermined region, and generating a neighbor base station information request message including information about the reference base station and information about the region and transmitting the generated neighboring base station information request message to the serving base station.

On the other hand, the neighbor base station information management system in a wireless communication system according to the present invention for achieving the above object, the terminal manages the movement information of the terminal, and predicts the movement information of the terminal in accordance with the movement of the terminal; Requesting a serving base station to transmit neighbor base station information to update a neighbor base station list stored in the terminal and managing neighbor base station information based on the predicted movement information, and received from the serving base station And a terminal for updating the neighbor base station list based on the received neighbor base station information.
The terminal may be located in a predetermined area including information on a reference base station corresponding to a location to which the terminal will move based on the predicted movement information, and adjacent base stations corresponding to information to be received by the terminal around the reference base station. And requesting neighboring base station information including the related information from the serving base station.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

In the wireless communication system according to the present invention, a mobile station (MS) manages movement information of the terminal, for example, a movement direction or a moving speed, predicts movement information of the terminal, and the terminal later Requests a serving base station (BS) to transmit base station (BS) information, that is, neighbor base station information, to be used when performing a handover operation, and receives the neighbor base station information received from the serving base station. To update a neighbor base station list. As a result, the neighbor base station list is dynamically managed based on the mobile information of the terminal.

In the following description, the handover between base stations using the same communication scheme will be described by way of example. However, according to the evolution of the wireless communication system, when a neighbor base station list is managed as described above in a region where communication systems using various communication methods are mixed, the neighbor base stations may be base stations using different communication methods. have. In addition, it is possible to extend the present invention to communication systems using different methods. In this case, it is assumed that the terminal can support all of the above communication methods.

1 is a signal flow diagram schematically illustrating message transmission for managing neighbor base station information in a wireless communication system according to an embodiment of the present invention.

1, a terminal 100, a serving base station 130 and a reference base station 160 are shown. In this case, the terminal 100 manages movement information of the terminal 100 therein, and it is possible to predict future movement information according to the movement of the terminal 100 based on the movement information. The movement information may be, for example, movement speed information and / or movement direction information. As described above, a method of managing the movement speed and / or the movement direction by the terminal 100 will be described below.

The terminal 100 manages its own moving speed by using a signal received by the terminal 100. As described above, the first method of using the received signal is a method in which the terminal 100 confirms the change in the received signal using the statistics of the received signal. In this case, the statistics may be statistics of a level crossing rate (LCR) or auto covariance of the received signal. Here, the level crossing rate is a value calculated using the envelope of the received signal during a given time period, that is, the number of times the power passes (crosses) a predetermined reference level. The automatic covariance function is also a value calculated by covariance of the slope of a received signal for a given time period.

The second method is a method of estimating a maximum doppler frequency of a signal received by the terminal 100.

The third method is a method of using a continuous wavelet transform (CWT) using an average distance between discontinuous points of a signal received by the terminal 100. In this case, the continuous wavelet transform enables the expansion and contraction of information in the time and frequency domains in a balanced manner by using a base function having a magnitude of variation in the time and frequency domains, and a time-frequency analysis of a signal. analysis).

The fourth method is a method using a global positioning system (GPS). When the satellite positioning system is used, location information of the terminal 100 may be grasped and the moving speed of the terminal 100 may be managed.

The fifth method is a method of managing the movement speed of the terminal 100 through the handover time interval and the distance between the moved cells. According to this method, it is possible to predict the movement speed according to the movement of the terminal 100 by managing the movement speed of the terminal 100.

In the meantime, the terminal 100 manages its movement direction based on the content of the message received by the terminal 100, that is, the movement direction of the terminal 100 is measured and accumulated for a predetermined time interval. The moving direction is managed through the received information, and the moving direction of the terminal is estimated.

Using this method, the terminal 100 may measure movement information of the terminal, that is, a moving speed and a moving direction. The above-described method is described as an example and is not limited to the above-described methods.

The terminal 100 manages the terminal 100 itself using the neighbor base station list information including the information of the neighbor base stations managed by the terminal 100 and the neighbor base station list information using the above-described mobile information. The neighbor base station list is managed, and the neighbor base station list and the neighbor base station list information are stored in the terminal 100 in the form of a table. When updating the neighbor base station list, the terminal 100 generates a neighbor base station information request message for requesting neighbor base station information in order to update the neighbor base station list in consideration of the movement information of the terminal 100. Thus, the neighbor base station information request message is transmitted to the serving base station 130 (step 101). In this case, the neighbor base station information request message includes, for example, neighboring information corresponding to information of the reference base station 160 for setting an area to which the terminal is to move and information to be received by the terminal 100 based on the reference base station 160. It may include information on a predetermined area including the base stations. Meanwhile, the neighbor base station information request message may further include information for determining a positional relationship between the neighbor base stations and frequency allocation (FA). As such, the process of generating and transmitting the neighbor BS information request message will be described later with reference to FIG. 2.

The serving base station 130 receiving the neighbor base station information request message needs the information of the base station 160 from the base station 160 or the information of the neighbor base stations centered on the base station 160. In step 103, a reference BS information request message is transmitted.

Upon receiving the reference base station information request message, the reference base station 160 generates a reference base station information response message including request information corresponding to the reference base station information request message and transmits it to the serving base station 130 (step 105). Steps 103 and 105 may be omitted according to the system setting or the situation, or may be performed at the request of the terminal 100 or the serving base station 130.

The serving base station 130 generates a neighbor base station information response message used to update the neighbor base station list in the terminal 100 in response to the neighbor base station information request message and transmits it to the terminal (step 107). In this case, the neighbor base station information response message may include information required by the terminal 100. As described above, the terminal 100 manages the neighbor base station list of the terminal 100 using the movement information of the terminal 100. As such, the neighbor base station information request / response message for updating the neighbor base station list may be periodically transmitted and received between the terminal 100 and the serving base station 130 at a predetermined time interval, and aperiodically transmitted and received by a request of the terminal. It is also possible. In addition, the neighbor base station information request / response message does not operate in association with an operation procedure for handover. In the message transmitted to update the conventional neighbor base station list, only fixed neighbor base station information according to system setting is included, but according to the present invention as described above, dynamic neighbor base station information is considered in consideration of movement information of the terminal 100. It is possible to provide to the terminal 100.

2 is a diagram schematically illustrating a request for information for managing a neighbor base station list in consideration of a moving position and a direction of a terminal in a wireless communication system according to an embodiment of the present invention.

FIG. 2 conceptually illustrates managing mobile information of a terminal and requesting the neighbor base station information by predicting the mobile information of the terminal according to the movement of the terminal. In FIG. 2, a cell in which a reference base station determined according to a plurality of cells and mobile station information present in a wireless communication system is located and its neighboring cell are shown. Hereinafter, a process of requesting neighboring base station information according to the mobile information of the terminal will be described with reference to FIG. 2.
First, it is assumed that the terminal is moving at a speed of 30 km per hour in the direction of the cell A 220 from the cell S (200). At this time, the terminal determines the base station that manages the cell A 220 as a reference base station, selects a cell area managed by neighboring base stations centered on the reference base station, and transmits area information about the selected area. Request the serving base station of the terminal. At this time, a neighbor base station information request message including a request for transmitting area information of cells managed by base stations located within one tier or 100m, around the reference base station, is transmitted to the serving base station. In this case, the first tier is an area including cells adjacent to the cell radius of the reference base station as shown in (a).

If it is assumed that the terminal is moving at a speed of 60 km per hour in the direction of the cell B 240 from the cell S 200, the terminal determines the base station managing the cell B 240 as the reference base station, The serving base station of the terminal is requested to select a cell area managed by neighboring base stations centered on the reference base station and to transmit area information about the selected area. At this time, a neighbor base station information request message including a request for transmitting area information of cells managed by base stations located within two tiers or 200m, based on the reference base station, is transmitted to the serving base station. In this case, as shown in (b), the second tier is an area including cells managed by the first tier neighbor base stations of the reference base station and cells adjacent to the cells managed by the tier 1 neighbor base stations.

If it is assumed that the terminal is moving at 90 km / h in the direction of the cell C 260 from the cell S 200, the terminal determines the base station managing the cell C 260 as the reference base station, and the reference It requests the serving base station of the terminal to transmit area information on the selected area by selecting a cell area managed by neighboring base stations centered on the base station. At this time, a neighbor base station information request message including area information of cells managed by base stations located within three tiers or 300m, around the reference base station, is transmitted to the serving base station. In this case, the third tier is region information including cells of two tier neighbor base stations of the reference base station and cells adjacent to the tier 2 neighbor base stations as shown in (c).

As such, the terminal generates a message for requesting neighbor base station information for updating the neighbor base station list in the terminal in consideration of the moving direction and speed of the terminal and transmits the message to the serving base station. At this time, when the terminal moves at a low speed, as shown in (a), the terminal requests information about an area including a reference base station and first base stations adjacent to a reference base station around the reference base station. When the terminal moves at a medium speed, as shown in (b), the terminal requests information about an area including a reference base station and second base stations adjacent to a reference base station around the reference base station. In addition, when the terminal moves at a high speed, as shown in (c), the terminal requests information about an area including a reference base station and third base stations adjacent to the reference base station around the reference base station.

Meanwhile, Table 1 shows an example of information included in a message generated by the terminal to update the neighbor base station list when the base station of the C cell is determined as the reference base station in the above example.

Referring to <Table 1>, the message includes base station information '#', region information 'thier' including neighbor base stations corresponding to information that the terminal wants to receive around the reference base station. It contains information 'FA' for requesting frequency. Although not shown in Table 1, the message may further include information for determining a positional relationship between neighboring base stations.

As described above, the terminal transmits a message requesting information of the neighbor base stations to the serving base station, receives the neighbor base station information from the serving base station and updates the neighbor base station list of the terminal. Meanwhile, as described above, the terminal requests neighbor base station information to the serving base station is described for convenience of description and is not limited to the above-described embodiment.

3 is a flowchart schematically illustrating an operation process of a terminal in a wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in step 301, the terminal manages movement information of the terminal and proceeds to step 303. In this case, the movement information may be information such as a movement speed and / or a movement direction. Since the method for measuring the moving speed and the moving direction of the terminal has been described in detail with reference to FIG. 1, a detailed description thereof will be omitted. Thus, by measuring the movement information as described above, it is possible to predict the movement information of the terminal. In other words, when the terminal uses movement information measured at a certain time interval, that is, a movement speed and / or a movement direction, it is possible to predict future movement information of the terminal. The neighbor base station list used may be updated.

In step 303, the terminal determines the reference base station for requesting neighbor base station information to the serving base station in consideration of the movement information, and proceeds to step 305. At this time, since the reference base station is determined using the mobile information of the terminal, this makes it possible to dynamically and flexibly manage the neighbor base station list of the terminal according to the movement of the terminal.

In step 305, the terminal sets a predetermined area around the reference base station in consideration of the movement information, and proceeds to step 307. In this case, the predetermined area is an area including neighboring base stations corresponding to information to be received by the terminal.

In step 307, the terminal generates a neighbor base station information request message including the reference base station information and the area information, and proceeds to step 309. At this time, the base station information and the area information, as well as the information requesting the allocation frequency information used by the neighbor base stations, and may further include information for determining the positional relationship between the neighbor base stations. In addition to the above information, in consideration of the movement information of the terminal, the information that can be requested to the serving base station may be additionally set and transmitted to receive response information about the request information from the serving base station.

In step 309, the terminal transmits the neighbor base station information request message to a serving base station, and proceeds to step 311.

In step 311, the terminal receives a neighbor base station information response message corresponding to the neighbor base station information request message from the serving base station, and proceeds to step 313. That is, the terminal receives information for neighbor base station list management from the serving base station.

In step 313, the terminal updates the neighbor base station list managed by the terminal based on the neighbor base station information response message, and then performs a handover using the neighbor base station list.

4 is a flowchart schematically illustrating an operation of a serving base station in a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 4, in step 401, the serving base station receives a neighbor base station information request message from a terminal and proceeds to step 403. In this case, the neighbor base station information request message includes a request message for requesting neighbor base station information for updating the neighbor base station information list to be managed by the terminal in consideration of the mobile information of the terminal.

In step 403, the serving base station analyzes the neighbor base station information request message to determine whether information should be received from a reference base station determined by the terminal. In this case, the information received from the reference base station may include information of the reference base station and / or information of neighboring base stations around the reference base station. In step 403, it is determined whether the information needs to be received from the reference base station. It is.

If it is determined that information does not need to be received from the reference base station, the process proceeds to step 409. If it is necessary to receive information from the reference base station, the process proceeds to step 405.
In step 405 in which it is determined that information needs to be received from the reference base station in step 403, the serving base station generates a reference base station information request message and transmits the generated base station information request message to the reference base station.

In step 407, the serving base station receives a reference base station information response message corresponding to the reference base station information request message from the reference base station, and proceeds to step 409.

In step 409, the serving base station generates a neighbor base station information response message corresponding to the neighbor base station information request message received in step 401 based on the reference base station information response message, and proceeds to step 411. At this time, the base station information included in the neighbor base station information request message from the terminal and a predetermined area centered on the reference base station, for example, an area including up to 1 tier, an area including up to 2 tiers, or up to 3 tiers The neighbor base station information response message is generated by checking whether the area is the area and the neighbor base station information corresponding to the area. The messages may also include information for determining a positional relationship between neighboring base stations and allocated frequency information, wherein the allocated frequency information may be one or more frequency information currently operating in a base station or a system. The information requested by the terminal may include information other than the above information, and the serving base station may generate the neighbor base station information response message including such information.

In step 411, the serving base station transmits the generated neighbor base station information response message to the terminal.

In the above description, an embodiment in which the terminal generates a message for updating a neighbor base station list and transmits the message to the serving base station is described. However, when the mobile station transmits mobile information managed by the terminal to the serving base station, It is also possible to apply a method for generating a message for updating a neighbor base station list based on the mobile information of the terminal and transmitting the same to the terminal.

Accordingly, the terminal may utilize the neighbor base station list during handover, and the terminal sets priority when searching for information of neighbor base stations on the neighbor base station list using managed mobile information. It is also possible to apply the method. Therefore, when the terminal updates the neighbor base station information, the terminal updates the priority of the information on the neighbor base station list in consideration of the mobile information. Then, the terminal can set a higher priority for the speed and direction in which the terminal moves, and can perform the neighbor base station search efficiently by searching the neighbor base station list according to the priority at the time of handover. have.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

According to the present invention as described above, a terminal on a wireless communication system transmits and receives a message for managing a neighbor base station list in consideration of its movement with a serving base station of the terminal and dynamically manages the neighbor base station list in consideration of the movement of the terminal. Has the advantage. In addition, when the terminal hands over, the handover is performed by using the neighbor base station list of the terminal, thereby reducing the time required for communication in synchronization with a target base station, so that a call drop set between the terminal and the base station does not occur. Has

Claims (15)

In the neighbor base station information management method in a wireless communication system, A terminal managing movement information of the terminal and predicting movement information of the terminal according to the movement of the terminal; Requesting a serving base station to transmit neighbor base station information to update a neighbor base station list stored in the terminal and managing neighbor base station information based on the predicted movement information; And Updating the neighbor base station list based on neighbor base station information received from the serving base station, The requesting process is Determining a reference base station corresponding to a location to which the terminal moves based on the predicted movement information; Setting a predetermined area including neighboring base stations corresponding to information to be received by the terminal around the reference base station; And And generating a neighbor base station information request message including information about the reference base station and information about the region and transmitting the generated neighbor base station information request message to the serving base station. The method of claim 1, wherein the movement information, The neighbor base station information management method comprising at least one of the movement speed information and the movement direction information. delete The method of claim 1, wherein the neighbor base station information, Neighbor base station information management method comprising information for determining a positional relationship between the neighbor base stations. The method of claim 1, wherein the neighbor base station information, Neighbor base station information management method including allocation frequency information of the neighbor base stations. The method of claim 1, wherein updating the neighbor base station list comprises: Neighboring base station information management method comprising the step of assigning priorities among the information of the neighbor base station list based on the movement information of the terminal. The method of claim 1, And performing the handover based on the updated neighbor base station list when performing the handover of the terminal. A neighbor base station information management system in a wireless communication system, The terminal manages movement information of the terminal, predicts movement information of the terminal according to movement of the terminal, and stores a neighbor base station list stored in the terminal based on the predicted movement information to manage neighbor base station information. Requesting a serving base station to transmit neighbor base station information for updating, and updating the neighbor base station list based on the neighbor base station information received from the serving base station; The terminal may be located in a predetermined area including information on a reference base station corresponding to a location to which the terminal will move based on the predicted movement information, and adjacent base stations corresponding to information to be received by the terminal around the reference base station. Neighboring base station information management system comprising requesting neighboring base station information including information on the serving base station. 9. The method of claim 8, And a serving base station for transmitting the neighbor base station information to the terminal at the request of the terminal. The method of claim 8, wherein the movement information, And at least one of movement speed information and movement direction information. delete The method of claim 8, wherein the neighbor base station information, Adjacent base station information management system including information for determining the positional relationship between the adjacent base stations. The method of claim 8, wherein the neighbor base station information, A neighbor base station information management system including allocation frequency information of the neighbor base stations. The method of claim 8, wherein, when updating the neighbor base station list, A neighbor base station information management system for assigning priorities among the information in the neighbor base station list based on the mobile information of the terminal. 9. The method of claim 8, The neighbor base station information management system performing a handover based on the updated neighbor base station list when performing the handover of the terminal.

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